Project description:Transcriptome analysis of BORIS depleted MCF7 cells To delineate the alternative pre-mRNA splicing program mediated by BORIS in breast cancer cells, BORIS was depleted in MCF7 using shRNA, and the resultant changes in alternative pre-mRNA splicing and mRNA expression pattern was profiled using Affymetrix Human Transcriptome 2.0 Array
Project description:Catechol-O-methyl transferase (COMT) is involved in detoxification of catechol estrogens, playing cancer-protective role in cells producing or utilizing estrogen. Moreover, COMT suppressed migration potential of breast cancer cells. To delineate COMT role in metastasis of estrogen receptor dependent BC, we investigated the effect of COMT overexpression on invasion, transcriptome, proteome and interactome of MCF7 cells, a luminal A breast cancer model, stably transduced with lentiviral vector carrying COMT gene (MCF7-COMT). This PRIDE project includes quantitative analysis results for the total proteome LC-DIA-MS/MS experiment evaluating COMT overexpression in MCF7 breast cancer cell line, and results of pulldown analysis of COMT-interacting proteins in MCF7 cells.
Project description:Desmocollin-1 (DSC1) is a desmosomal transmembrane glycoprotein that maintains cell-to-cell adhesion. DSC1 was previously associated with lymph node metastasis of luminal A breast tumors and was found to increase metastatic potential of MCF7 cells in vitro. To delineate DSC1 role in breast cancer metastasis and evaluate possibilities of DSC1 modulation, we investigated the effect of DSC1 overexpression on morphology, cell survival, transcriptome, proteome and interactome of MCF7 cells, a luminal A breast cancer model, stably transduced with lentiviral vector carrying DSC1 gene (MCF7-DSC1-GFP). We moreover identified inhibitor parthenolide to decrease DSC1 protein levels and to modulate the molecular mechanisms associated with DSC1 in MCF7 cells. This PRIDE project includes quantitative analysis results for the total proteome LC-DIA-MS/MS experiment evaluating DSC1 overexpression and parthenolide treatment in MCF7 breast cancer cell line, and results of pulldown analysis of DSC1-interacting proteins in MCF7 cells with and without parthenolide treatment.
Project description:CTCF and BORIS (CTCFL), two paralogous mammalian proteins sharing nearly identical DNA binding domains, are thought to function in mutually exclusive manners in DNA binding and transcriptional regulation. Here we show that these two proteins co-occupy a specific subset of regulatory elements consisting of clustered CTCF binding motifs (termed 2xCTSes). BORIS occupancy at 2xCTSes is largely invariant in BORIS-positive cancer cells, with the genomic pattern recapitulating the germline-specific BORIS binding to chromatin. In contrast to the single-motif CTCF target sites (1xCTSes), the 2xCTS elements are preferentially found at active promoters and enhancers, both in cancer and germ cells. 2xCTSes are also enriched in genomic regions that escape histone to protamine replacement in human and mouse sperm. Depletion of BORIS gene leads to altered transcription of a large number of genes and the differentiation of K562 cells, while the ectopic expression of this CTCF paralog leads to specific changes in transcription in MCF7 cells. In summary, we discover two functionally and structurally different classes of CTCF binding regions, 2xCTSes and 1xCTSes, revealed by their predisposition to bind BORIS. We propose that 2xCTSes play key roles in the transcriptional program of cancer and germ cells Genome-wide mapping of CTCF and BORIS occupancies in both germ and cancer cells. ChIP-seq and expression profiling by high throughput sequencing